Title :
Virtex FPGA implementation of a pipelined adaptive LMS predictor for electronic support measures receivers
Author :
Ting, Lok-Kee ; Woods, Roger ; Cowan, Colin F N
Author_Institution :
Queen´´s Univ. of Belfast, Ireland
Abstract :
High-speed field-programmable gate array (FPGA) implementations of an adaptive least mean square (LMS) filter with application in an electronic support measures (ESM) digital receiver, are presented. They employ "fine-grained" pipelining, i.e., pipelining within the processor and result in an increased output latency when used in the LMS recursive system. Therefore, the major challenge is to maintain a low latency output whilst increasing the pipeline stage in the filter for higher speeds. Using the delayed LMS (DLMS) algorithm, fine-grained pipelined FPGA implementations using both the direct form (DF) and the transposed form (TF) are considered and compared. It is shown that the direct form LMS filter utilizes the FPGA resources more efficiently thereby allowing a 120 MHz sampling rate.
Keywords :
adaptive estimation; adaptive filters; adaptive signal processing; circuit noise; field programmable gate arrays; least mean squares methods; pipeline processing; radar receivers; recursive filters; 120 MHz; DLMS algorithm; LMS recursive system; adaptive least mean square filter; delayed LMS algorithm; direct form; electronic support measures digital receivers; fine-grained pipelining; high speed field programmable gate array implementation; high-speed Virtix FPGA implementation; output latency; pipelined adaptive LMS predictor; processor; sampling rate; transposed form; Adaptive filters; Delay; Digital signal processing; Field programmable gate arrays; Frequency; Least squares approximation; Military computing; Pipeline processing; Signal processing; Signal sampling; Circuit architecture; field programmable gate array (FPGA) implementation; least mean square (LMS) filtering; pipelining;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2004.840403
